![]() The main features of this release have primarily been from community pull requests which is fantastic. Beta Release v0.19Īs an early winter holiday gift we bring you BookStack v0.19. A dynamic public dashboard of these stats can be found here if you want to have a deeper look. Through the second half of this year we’ve seen a good degree of growth which I hope to see continue through 2018. ![]() Here’s a graph showing website activity since Jan 2016, When the website was first set up: A special thanks in particular to and who have both been very active in responding to issues and making contributions.Īs always, I like to keep project information as open as possible. A massive thanks to everyone that’s made such a contribution since it’s great to see people that care about a project like this. Throughout 2017 there’s been a growing amount of community contributions to the project in various forms which includes making pull requests, creating issues and supporting on existing issues. Product links on this page may be affiliate links which means it won't cost you any extra but we may earn a small commission if you decide to purchase through the link.Dan Brown posted on the 10th of December 2017īefore 2017 is up we have managed to hit 1000 stars on GitHub! This reflects the continued growing momentum that the project has experienced over time considering the 500 star milestone was only passed in March of this year. Subscribe for the latest science videos: Modsiw, Anton Ragin, Edward Unthank, Robert L Winer, Andy Carpenter, William Hudsonĭon McLaughlin, efkinel lo, Martin Paull, Ben Wynne-Simmons, Ivo Danihelka, Kevin Winoto, Jonathan Killin, Stephan Giersche, William Billy Robillard, Jeffrey Schweitzer, Frances Dunne, jonas.app, Tim Karr, Alan Latteri, David Crowner, Matt Townsend, THOMAS N TAMADA, Andrew McGhee, Paul Brown, David Schick, Dave Ostler, Osian Gwyn Williams, David Lindo, Roger Baker, Rebecca Pan ![]() His main interests are the connection between planet formation and star forming environment, but has enjoyed working on a wide range of other topics including star formation/stellar feedback, planet formation, cloud-cloud collisions, AGB star winds and globulettes.Ī very special thank you to our Patreon supporters who help make these videos happen, especially: He connects the two using synthetic observations. His approach to research uses both computer simulations and observations with state of the art facilities. Thomas Haworth is a Royal Society Dorothy Hodgkin Fellow and Lecturer at Queen Mary University of London. ![]() This talk was recorded at the Ri on 11 April 2023.Ģ2:41 Star formulation simulation (demos)Ģ9:57 The effect of massive stars on galaxiesģ8:53 How quickly are galaxies making stars? From the destruction of planet-forming discs surrounding young stars to energy surges as the massive stars explode in supernovae, the lives of massive stars have far-reaching consequences for their surroundings. In this talk, Thomas Haworth shares the latest understandings of how the energy from massive stars is impacting the clusters and galaxies around them. Massive stars, around 40 times larger than the sun, emit vast amounts of energy which heats and blows away the star-forming gas. ![]() However, alongside the creation there is destruction. Amongst these are massive stars which, though rare and short-lived, have far-reaching effects on the evolution of the entire galaxy.Ĭlusters of stars are formed when gravity causes giant clouds of dusty gas to collapse, giving us some of the most stunning images in astronomy. When stars are born, hundreds of thousands can form in one cluster. What are massive stars and supernovae, and why are they so rare? And why have they had such a huge effect on the evolution of the universe? ![]()
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